In Vitro Assessment of Osteoblast Behavior in Craniosynostosis

Simon Cypel, Tatiana Karine

25 August 2011

Introduction: The objective of this study is to investigate the role of osteoblasts in the pathophysiology of premature suture fusion in infants. Methods: Bone and periosteal tissue from fused and patent cranial sutures and adjacent bone were harvested from infants undergoing surgery for craniosynostosis and used to develop primary osteoblast cell cultures. Dural tissue was obtained from neurosurgical procedures in order to generate an osteoblast-dural co-culture. Osteoblast proliferation, differentiation, mineralization, protein expression (Noggin, BMP3 and Runx2) and response to exogenous FGF2 stimulation were assessed. Results: Cell cultures demonstrated significant (p<0.05) regional variations in osteoblast proliferation, differentiation markers and in vitro bone nodule formation. The expression of anti-osteogenic molecules (Noggin and BMP3) was decreased in osteoblasts from fused suture regions. Conclusion: The creation of a pro-osteogenic environment through the decreased expression of anti-osteogenic signalling molecules and increased expression of osteogenic factors may be responsible for premature suture fusion in infants.

craniosynostosis

cell culture

osteoblast behavior

anti-osteogenic signalling

dura mater

pro-osteogenic signalling

0564

In Vitro Assessment of Osteoblast Behavior in Craniosynostosis

Simon Cypel, Tatiana Karine

25 August 2011

Introduction: The objective of this study is to investigate the role of osteoblasts in the pathophysiology of premature suture fusion in infants. Methods: Bone and periosteal tissue from fused and patent cranial sutures and adjacent bone were harvested from infants undergoing surgery for craniosynostosis and used to develop primary osteoblast cell cultures. Dural tissue was obtained from neurosurgical procedures in order to generate an osteoblast-dural co-culture. Osteoblast proliferation, differentiation, mineralization, protein expression (Noggin, BMP3 and Runx2) and response to exogenous FGF2 stimulation were assessed. Results: Cell cultures demonstrated significant (p<0.05) regional variations in osteoblast proliferation, differentiation markers and in vitro bone nodule formation. The expression of anti-osteogenic molecules (Noggin and BMP3) was decreased in osteoblasts from fused suture regions. Conclusion: The creation of a pro-osteogenic environment through the decreased expression of anti-osteogenic signalling molecules and increased expression of osteogenic factors may be responsible for premature suture fusion in infants.

craniosynostosis

cell culture

osteoblast behavior

anti-osteogenic signalling

dura mater

pro-osteogenic signalling

0564